We have used for the first time soft X-ray transmission microscopy at the MISTRAL beamline to visualize chemical modifications during cycling of a lithium-rich, cobalt-poor lithium manganese, nickel, cobalt oxide cathode material used as active cathode material in high capacity lithium batteries. We observed Li1.2Mn0.56Ni0.16Co0.08O2 particles with and without VOx coating extracted from electrodes stopped at different state of charge. Even with these homogeneous and small-sized particles (typically 200 nm) it was possible to appreciate particles at different degree of intercalation in the same sample, with a variable distribution during different states of charge. Identification of conducting carbon and binder regions allowed attribu...
Surface properties of cathode particles play important roles in the transport of ions and electrons ...
Capacity and voltage fading of layered structured cathode based on lithium transition-metal oxide is...
The discharge products of ether-based Li–O<sub>2</sub> cells were grown directly on common carbon-co...
We have used for the first time soft X-ray transmission microscopy at the MISTRAL beamline to visua...
none10siEnergy-dependent full field transmission soft X-ray microscopy (TXM) is able to give a full ...
Understanding the evolution of chemical composition and morphology of battery materials during elect...
Understanding the evolution of chemical composition and morphology of battery materials during elect...
Summary: The search for higher performance, improved safety, and lifetime of lithium-ion batteries r...
Capacity and voltage fading of layered structured cathode based on lithium transition-metal oxide is...
Lithium-rich manganese-based layered oxides Li[Li<sub><i>x</i></sub>Mn<sub><i>y</i></sub>TM<sub>1–<...
AbstractLi-rich layered materials are important cathode compounds used in commercial lithium ion bat...
A full-field high-resolution x-ray nano-tomography technique, transmission x-ray microscopy (TXM), w...
Surface lattice reconstruction is commonly observed in nickel-rich layered oxide battery cathode mat...
Nanoscale full-field (FF) transmission X-ray microscopy (TXM) and ensemble-averaged soft X-ray absor...
The key to advancing lithium-ion battery technology-in particular, fast charging-is the ability to f...
Surface properties of cathode particles play important roles in the transport of ions and electrons ...
Capacity and voltage fading of layered structured cathode based on lithium transition-metal oxide is...
The discharge products of ether-based Li–O<sub>2</sub> cells were grown directly on common carbon-co...
We have used for the first time soft X-ray transmission microscopy at the MISTRAL beamline to visua...
none10siEnergy-dependent full field transmission soft X-ray microscopy (TXM) is able to give a full ...
Understanding the evolution of chemical composition and morphology of battery materials during elect...
Understanding the evolution of chemical composition and morphology of battery materials during elect...
Summary: The search for higher performance, improved safety, and lifetime of lithium-ion batteries r...
Capacity and voltage fading of layered structured cathode based on lithium transition-metal oxide is...
Lithium-rich manganese-based layered oxides Li[Li<sub><i>x</i></sub>Mn<sub><i>y</i></sub>TM<sub>1–<...
AbstractLi-rich layered materials are important cathode compounds used in commercial lithium ion bat...
A full-field high-resolution x-ray nano-tomography technique, transmission x-ray microscopy (TXM), w...
Surface lattice reconstruction is commonly observed in nickel-rich layered oxide battery cathode mat...
Nanoscale full-field (FF) transmission X-ray microscopy (TXM) and ensemble-averaged soft X-ray absor...
The key to advancing lithium-ion battery technology-in particular, fast charging-is the ability to f...
Surface properties of cathode particles play important roles in the transport of ions and electrons ...
Capacity and voltage fading of layered structured cathode based on lithium transition-metal oxide is...
The discharge products of ether-based Li–O<sub>2</sub> cells were grown directly on common carbon-co...
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